This paper discusses the reuse and retargeting of test instruments and test patterns using the IEEE P1687 standard in an era where reuse of existing functional elements and integration of IP blocks is accelerating rapidly. It briefly discusses the deficiencies of existing 1149.1 (JTAG) and 1500 standards and demonstrates how the new standard, P1687, plugs these exposures by specifying JTAG as an off-chip to on-chip interface to the instrument access infrastructure. It provides a simple example to underscore the need for the standard and then builds on this example to show how the standard can be used for more complex situations
The IEEE P1687 (IJTAG) standard proposal aims at providing a standardized interface between on-chip...
The constant need for higher performance and more advanced functionality has made the design and man...
Accessing embedded test and monitoring circuitry (the so-called embedded instruments) in in-field pr...
Modern chips may contain a large number of embedded test, debugging, configuration, and monitoring f...
Modern chips may contain a large number of embedded test, debug, configuration, and monitoring featu...
While the advancement in semiconductor technologies enables manufacturing of highly advanced and com...
IEEE 1687 (iJTAG) standard introduces a methodology for accessing the increasing number of embedded ...
The IEEE P1687 (IJTAG) standard proposal aimsat standardizing the access to embedded test and debug ...
The ever-increasing need for higher performance and more complex functionality pushes the electronic...
As semiconductor technologies enables highly advanced an complex integrated circuits (ICs), there is...
The continuous development in silicon manufacturing technologies and the increased reliance on desig...
International audienceThis paper introduces a standards-based framework which enables two type...
International audienceMany modern devices have a very limited number of digital pins, yet they are o...
Embedded instruments are becoming used more often in modern SoCs for different testing and measureme...
IEEE 1687 (IJTAG) has been developed to enable flexible and automated access to the increasing numbe...
The IEEE P1687 (IJTAG) standard proposal aims at providing a standardized interface between on-chip...
The constant need for higher performance and more advanced functionality has made the design and man...
Accessing embedded test and monitoring circuitry (the so-called embedded instruments) in in-field pr...
Modern chips may contain a large number of embedded test, debugging, configuration, and monitoring f...
Modern chips may contain a large number of embedded test, debug, configuration, and monitoring featu...
While the advancement in semiconductor technologies enables manufacturing of highly advanced and com...
IEEE 1687 (iJTAG) standard introduces a methodology for accessing the increasing number of embedded ...
The IEEE P1687 (IJTAG) standard proposal aimsat standardizing the access to embedded test and debug ...
The ever-increasing need for higher performance and more complex functionality pushes the electronic...
As semiconductor technologies enables highly advanced an complex integrated circuits (ICs), there is...
The continuous development in silicon manufacturing technologies and the increased reliance on desig...
International audienceThis paper introduces a standards-based framework which enables two type...
International audienceMany modern devices have a very limited number of digital pins, yet they are o...
Embedded instruments are becoming used more often in modern SoCs for different testing and measureme...
IEEE 1687 (IJTAG) has been developed to enable flexible and automated access to the increasing numbe...
The IEEE P1687 (IJTAG) standard proposal aims at providing a standardized interface between on-chip...
The constant need for higher performance and more advanced functionality has made the design and man...
Accessing embedded test and monitoring circuitry (the so-called embedded instruments) in in-field pr...